🧬 Organic Chemistry β€” At a Glance
6
Atomic Number of Carbon
+4
Valency of Carbon
Catenation
Carbon's chain-forming ability
C-60
Fullerene (Buckminsterfullerene)
πŸ“˜ Organic Chemistry

Study of carbon compounds (except CO, COβ‚‚, carbonates). Carbon has valency +4, forms 4 covalent bonds. Catenation = ability to form long chains with itself β†’ hydrocarbons.

πŸ“Š Hydrocarbon Series β€” Quick Visual
Alkane
Single C–C
Cβ‚™Hβ‚‚β‚™β‚Šβ‚‚
Alkene
Double C=C
Cβ‚™Hβ‚‚β‚™
Alkyne
Triple C≑C
Cβ‚™Hβ‚‚β‚™β‚‹β‚‚
Aromatic
Benzene ring
Cβ‚™H₂ₙ₋₆
βš›οΈ Carbon β€” Properties
Property Value
Symbol C
Atomic Number 6
Atomic Mass 12.011
Valency +4
Electronic Config. [He] 2sΒ², 2pΒ²
Group 14
Period 2
Bond type Covalent bonds
Conductor Bad (Exception: Graphite)
Carbon Isotopes
  • C-12 β€” Stable (98.9% natural)
  • C-13 β€” Stable (1.1% natural)
  • C-14 β€” Radioactive (used in carbon dating)
Catenation
Carbon's Unique Chain-Forming Ability

Carbon can form bonds with other carbon atoms β†’ long chains, branched chains, ring structures β†’ forms diverse hydrocarbons.

⚠️ Exam Trap β€” Carbon
  • Carbon valency = +4 (forms 4 covalent bonds)
  • C-14 is radioactive β€” used in carbon dating of ancient materials
  • Carbon = Group 14, Period 2
  • Catenation = unique to carbon (Si has limited catenation)
πŸ’Ž Allotropes of Carbon
πŸ“˜ Allotropes

Different physical forms of the same element. Carbon allotropes have same chemical properties but different physical properties.

πŸ’Ž
Diamond
  • Insulator of electricity
  • Hardest natural substance
  • 3D tetrahedral structure
  • Very high melting point
  • Transparent, lustrous
  • Uses: Jewellery, glass cutters, sharp tools
✏️
Graphite
  • Good conductor of electricity
  • Hexagonal, planar layer structure
  • Opaque, soft (layers slide)
  • Lubricant properties
  • Uses: Pencil tip, electrode, lubricant
  • Softest carbon form
⚽
Fullerene (C-60)
  • Also called Buckminsterfullerene
  • 60 carbon atoms in football shape
  • Discoverers: H. Kroto, Richard Smalley, Robert Curl
  • Uses: Semiconductors, lubricants, tumour research
⚠️ Exam Trap β€” Carbon Allotropes
  • Diamond = Insulator; Graphite = Conductor (opposite of expectation!)
  • Diamond = hardest; Graphite = softest carbon form
  • Fullerene discovered by Kroto, Smalley, Curl (all three must be known)
  • Graphite has layered structure β†’ layers slide β†’ good lubricant & soft
  • Buckminsterfullerene = C-60 (NOT C-70 or other)
β›½ Hydrocarbons
πŸ“˜ Definition

Compounds made of Carbon and Hydrogen only. Can be saturated (single bonds) or unsaturated (double/triple bonds).

Type Bond Formula Examples
Alkane (Saturated) C–C (Single) Cβ‚™Hβ‚‚β‚™β‚Šβ‚‚ CHβ‚„ (Methane), Cβ‚‚H₆ (Ethane)
Alkene (Unsaturated) C=C (Double) Cβ‚™Hβ‚‚β‚™ Cβ‚‚Hβ‚„ (Ethene/Ethylene)
Alkyne (Unsaturated) C≑C (Triple) Cβ‚™Hβ‚‚β‚™β‚‹β‚‚ Cβ‚‚Hβ‚‚ (Ethyne/Acetylene)
Aromatic Benzene ring Cβ‚™H₂ₙ₋₆ Benzene, Toluene, Naphthalene
Saturated Compound
Only single bonds (C–C)
H₃C–CH₃ (Ethane)
Cβ‚™Hβ‚‚β‚™β‚Šβ‚‚Alkane series
Unsaturated Compound
Double or Triple bonds
Hβ‚‚C=CHβ‚‚ (Ethene) | HC≑CH (Ethyne)Alkene Cβ‚™Hβ‚‚β‚™ | Alkyne Cβ‚™Hβ‚‚β‚™β‚‹β‚‚
Isomers
Same molecular formula, different structural arrangements
  • Cβ‚‚H₆O β†’ CH₃OCH₃ (Dimethyl Ether) AND Cβ‚‚Hβ‚…OH (Ethanol) β€” same formula, different structures
Homologous Series
Same functional group; differ by –CH₂–
  • CH₃OH β†’ CH₃CHβ‚‚OH β†’ CH₃CHβ‚‚CHβ‚‚OH (each adds –CH₂–)
  • Same chemical properties; gradual change in physical properties
⚠️ Exam Trap β€” Hydrocarbons
  • Alkane = Cβ‚™Hβ‚‚β‚™β‚Šβ‚‚; Alkene = Cβ‚™Hβ‚‚β‚™; Alkyne = Cβ‚™Hβ‚‚β‚™β‚‹β‚‚
  • Methane (CHβ‚„) = n=1; Cβ‚™Hβ‚‚β‚™β‚Šβ‚‚ = C₁Hβ‚„ βœ“
  • Acetylene = Ethyne = HC≑CH = Cβ‚‚Hβ‚‚
  • Isomers = same molecular formula, different structure, different properties
πŸ“ Nomenclature of Carbon Compounds
πŸ“˜ Prefix System

The prefix indicates the number of carbon atoms in the chain. The suffix depends on the type of bond or functional group.

1C
Meth-
2C
Eth-
3C
Prop-
4C
But-
5C
Pent-
6C
Hex-
7C
Hept-
8C
Oct-
9C
Non-
10C
Dec-
πŸ“˜ Suffix Rules
  • Alkane (single bond) β†’ -ane e.g., Methane, Ethane
  • Alkene (double bond) β†’ -ene e.g., Ethene, Propene
  • Alkyne (triple bond) β†’ -yne e.g., Ethyne, Propyne
  • Alcohol (–OH group) β†’ -anol e.g., Methanol, Ethanol
⚠️ Exam Trap β€” Prefixes
  • 4C = But- (Butane, Butene) β€” NOT Quad
  • LPG mainly contains Butane (4C) + Propane (3C)
  • CNG mainly contains Methane (1C)
  • Octane (8C) β†’ Octane number (quality of petrol)
  • Cetane = 16C β†’ Cetane number (quality of diesel)
πŸ”— Functional Groups
πŸ“˜ Definition

Atom or group of atoms responsible for the characteristic chemical properties of organic compounds.

–OH
Hydroxyl (Alcohol)
Cβ‚‚Hβ‚…OH (Ethanol)
–COOH
Carboxyl (Carboxylic Acid)
CH₃COOH (Acetic acid)
–CHO
Aldehyde
HCHO (Formaldehyde)
–CO–
Ketone
CH₃COCH₃ (Acetone)
–NHβ‚‚
Amino
Cβ‚‚Hβ‚…NHβ‚‚ (Ethylamine)
–NOβ‚‚
Nitro
C₆Hβ‚…NOβ‚‚ (Nitrobenzene)
–X (Cl, Br)
Halide
CH₃Cl (Chloromethane)
⚠️ Exam Trap β€” Functional Groups
  • –OH = Alcohol (–ol suffix); –COOH = Carboxylic acid (–ic acid suffix)
  • –CHO = Aldehyde (–al suffix); –CO– = Ketone (–one suffix)
  • Acetone = CH₃COCH₃ (Ketone, NOT Aldehyde)
  • Formaldehyde = HCHO (Aldehyde β€” simplest)
  • Acetic acid = Ethanoic acid = CH₃COOH
πŸ§ͺ Important Organic Compounds
Compound Formula Key Properties & Uses
Ethanol (Alcohol) Cβ‚‚Hβ‚…OH Liquid at room temp; good solvent; made by fermentation; used in medicine (tincture iodine, cough syrup)
Ethanoic Acid (Acetic Acid) CH₃COOH 3–4% solution = Vinegar (pickle preservative); Pure form (Glacial acetic acid) MP = 290 K
Methanol (Wood Spirit) CH₃OH Colourless, poisonous; wine smell; blindness or death from excessive consumption
Soap C₁₅H₃₁COONa / C₁₇H₃₅COONa Na/K salt of fatty acid; made by Saponification; Alkaline solution; No foam with hard water; Biodegradable
Detergent –SO₃Na group Long chain sulphonic acids; Neutral solution; Foams with hard water; NOT biodegradable
⚠️ Exam Trap β€” Soap vs Detergent
Property Soap Detergent
Nature of solution Alkaline (Basic) Neutral
With hard water No foam βœ— Foams βœ“
Biodegradable? Yes βœ“ No βœ—
Active group –COO⁻ (carboxylate) –SO₃⁻ (sulphonate)
Made from Fats & oils (Saponification) Petroleum derivatives
⚠️ Exam Trap β€” Methanol vs Ethanol
  • Methanol (CH₃OH) = Wood spirit; POISONOUS β†’ causes blindness/death
  • Ethanol (Cβ‚‚Hβ‚…OH) = Drinking alcohol; safe in moderate amounts; made by fermentation
  • Vinegar = 3–4% ethanoic acid (NOT pure)
  • Glacial acetic acid = 99–100% pure ethanoic acid; MP = 290 K
πŸ”₯ Fuels
πŸ“˜ Fuel

Substance that gives heat and light when burned. Fossil fuels are derived from fossils (Coal, Petroleum).

πŸͺ¨
Solid Fuels
  • Wood
  • Coke
  • Coal
  • Charcoal
β›½
Liquid Fuels
  • Petrol (C₅–C₁₀)
  • Diesel (C₁₀–C₁₅)
  • Kerosene (C₁₀–C₁₆)
  • Alcohol
πŸ”΅
Gaseous Fuels
  • LPG β€” Butane + Propane
  • CNG β€” Methane (mainly)
  • Natural Gas
Fuel / Term Key Details
LPG Liquefied Petroleum Gas β€” mainly Butane (Cβ‚„) + Propane (C₃)
CNG Compressed Natural Gas β€” mainly Methane (C₁)
Petrol Mixture of hydrocarbons Cβ‚… to C₁₀
Diesel Mixture of hydrocarbons C₁₀ to C₁₅
Kerosene Mixture of hydrocarbons C₁₀ to C₁₆
Octane Number Measure of quality of Petrol (higher = better, less knocking)
Cetane Number Measure of quality of Diesel (higher = better combustion)
⚠️ Exam Trap β€” Fuels
  • LPG = Butane + Propane (NOT Methane)
  • CNG = mainly Methane (1 carbon)
  • Octane number β†’ Petrol quality | Cetane number β†’ Diesel quality
  • Petrol = C₅–C₁₀; Diesel = C₁₀–C₁₅; Kerosene = C₁₀–C₁₆
  • Fossil fuels = Coal, Petroleum (derived from ancient fossils)
🎯 High-Frequency BPSC/BSSC Exam Points
  • Carbon: Atomic No. = 6; Valency = +4; Group 14, Period 2
  • C-14 = radioactive (used in carbon dating)
  • Catenation = carbon's ability to form chains with itself
  • Diamond: Insulator, hardest, 3D structure; Graphite: Conductor, hexagonal layers, soft
  • Fullerene (C-60) = Buckminsterfullerene; discoverers: Kroto, Smalley, Curl
  • Alkane = Cβ‚™Hβ‚‚β‚™β‚Šβ‚‚ (single bonds); Alkene = Cβ‚™Hβ‚‚β‚™ (double); Alkyne = Cβ‚™Hβ‚‚β‚™β‚‹β‚‚ (triple)
  • Acetylene = Ethyne = HC≑CH = Cβ‚‚Hβ‚‚
  • Prefixes: 1=Meth, 2=Eth, 3=Prop, 4=But, 5=Pent, 6=Hex, 7=Hept, 8=Oct
  • –OH = Alcohol | –COOH = Carboxylic acid | –CHO = Aldehyde | –CO– = Ketone
  • Isomers = same formula, different structure
  • Ethanol (Cβ‚‚Hβ‚…OH) = made by fermentation; safe
  • Methanol (CH₃OH) = Wood spirit; POISONOUS β†’ blindness/death
  • Acetic acid 3–4% = Vinegar; Pure = Glacial acetic acid (MP = 290 K)
  • Soap = Na/K salt of fatty acid; made by Saponification; Alkaline; No foam with hard water
  • Detergent = Neutral; Foams with hard water; NOT biodegradable
  • LPG = mainly Butane + Propane
  • CNG = mainly Methane
  • Octane number = petrol quality; Cetane = diesel quality
  • Petrol = C₅–C₁₀ | Diesel = C₁₀–C₁₅ | Kerosene = C₁₀–C₁₆
πŸ“‹ Hydrocarbon Formula Quick Ref
Type Bond Formula Example
Alkane C–C Cβ‚™Hβ‚‚β‚™β‚Šβ‚‚ CHβ‚„
Alkene C=C Cβ‚™Hβ‚‚β‚™ Cβ‚‚Hβ‚„
Alkyne C≑C Cβ‚™Hβ‚‚β‚™β‚‹β‚‚ Cβ‚‚Hβ‚‚
Aromatic Ring Cβ‚™H₂ₙ₋₆ C₆H₆
⚠️ Most Common Exam Traps
  • Diamond = Insulator; Graphite = Conductor
  • LPG = Butane+Propane (NOT Methane)
  • CNG = Methane (NOT Butane)
  • Soap = Alkaline; Detergent = Neutral
  • Soap: No foam with hard water; Detergent: Foams βœ“
  • Methanol = POISONOUS; Ethanol = safe (drinkable)
  • Octane = petrol; Cetane = Diesel
  • Fullerene discoverers = 3 people: Kroto, Smalley, Curl
  • C-14 = radioactive (C-12, C-13 are stable)
  • Acetylene = Ethyne = HC≑CH (triple bond)
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